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Human Genetic Diseases 1 3 4 2 5 2006-2007 6 Pedigree analysis Pedigree analysis reveals Mendelian patterns in human inheritance = male AP Biology data mapped on a family tree = female = male w/ trait = female w/ trait Simple pedigree analysis 1 1 3 3 AP Biology 4 4 What’s the likely inheritance pattern? 2 2 5 5 6 6 http://www.youtube.com/watch? v=zeIsxXDyjlc Genetic counseling Pedigree can help us understand the past & predict the future Thousands of genetic disorders are inherited as simple recessive traits from benign conditions to deadly diseases AP Biology albinism cystic fibrosis Tay sachs sickle cell anemia PKU Genetic testing sequence individual genes AP Biology Errors of Meiosis Chromosomal Abnormalities 2006-2007 Chromosomal abnormalities Incorrect number of chromosomes nondisjunction breakage of chromosomes AP Biology chromosomes don’t separate properly during meiosis deletion duplication inversion translocation Nondisjunction Problems with meiotic spindle cause errors in daughter cells 2n homologous chromosomes do not separate properly during Meiosis 1 sister chromatids fail to separate during Meiosis 2 too many or too few chromosomes n-1 n n+1 n AP Biology Alteration of chromosome number error in Meiosis 1 error in Meiosis 2 all with incorrect number AP Biology 1/2 with incorrect number Nondisjunction Baby has wrong chromosome number trisomy monosomy n+1 AP Biology cells have 3 copies of a chromosome cells have only 1 copy of a chromosome n-1 n n trisomy monosomy 2n+1 2n-1 Human chromosome disorders High frequency in humans most embryos are spontaneously aborted alterations are too disastrous developmental problems result from biochemical imbalance imbalance in regulatory molecules? hormones? transcription factors? Certain conditions are tolerated AP Biology upset the balance less = survivable but characteristic set of symptoms = syndrome Down syndrome Trisomy 21 3 copies of chromosome 21 1 in 700 children born in U.S. Chromosome 21 is the smallest human chromosome but still severe effects Frequency of Down syndrome correlates with the age of the mother AP Biology Down syndrome & age of mother Mother’s age Incidence of Down Syndrome Under 30 <1 in 1000 30 1 in 900 35 1 in 400 36 1 in 300 37 1 in 230 38 1 in 180 39 1 in 135 40 1 in 105 42 1 in 60 44 1 in 35 46 1 in 20 48 1 in 16 49 1 in 12 AP Biology Rate of miscarriage due to amniocentesis: 1970s data 0.5%, or 1 in 200 pregnancies 2006 data <0.1%, or 1 in 1600 pregnancies Genetic testing Amniocentesis in 2nd trimester sample of embryo cells stain & photograph chromosomes Analysis of karyotype AP Biology Sex chromosomes abnormalities Human development more tolerant of wrong numbers in sex chromosome But produces a variety of distinct syndromes in humans AP Biology XXY = Klinefelter’s syndrome male XXX = Trisomy X female XYY = Jacob’s syndrome male XO = Turner syndrome female Klinefelter’s syndrome XXY male one in every 2000 live births have male sex organs, but are sterile feminine characteristics some breast development lack of facial hair tall normal intelligence AP Biology Klinefelter’s syndrome AP Biology Jacob’s syndrome male XYY Males 1 in 1000 live male births extra Y chromosome slightly taller than average more active normal intelligence, slight learning disabilities delayed emotional maturity normal sexual development AP Biology Trisomy X XXX 1 in every 2000 live births produces healthy females Why? Barr bodies all but one X chromosome is inactivated AP Biology Turner syndrome Monosomy X or X0 1 in every 5000 births varied degree of effects webbed neck short stature sterile AP Biology replication error of Changes in chromosome structure deletion duplication crossing over error of repeat a segment inversion loss of a chromosomal segment reverses a segment translocation AP Biology move segment from one chromosome to another Recessive diseases The diseases are recessive because the allele codes for either a malfunctioning protein or no protein at all AP Biology Heterozygotes (Aa) carriers have a normal phenotype because one “normal” allele produces enough of the required protein Heterozygote crosses Heterozygotes as carriers of recessive alleles Aa x Aa female / eggs male / sperm A a AP Biology A a AA AA Aa Aa A Aa a carrier Aa Aa aa carrier disease A Aa a Cystic fibrosis (recessive) Primarily whites of European descent strikes 1 in 2500 births AP Biology normal lung tissue normal allele codes for a membrane protein that transports Cl- across cell membrane 1 in 25 whites is a carrier (Aa) defective or absent channels limit transport of Cl- & H2O across cell membrane thicker & stickier mucus coats around cells mucus build-up in the pancreas, lungs, digestive tract & causes bacterial infections without treatment children die before 5; with treatment can live past their late 20s Chloride channel Effect on Lungs normal lungs airway Cl– transports salt through protein channel out of cell Osmosis: H2O follows Cl– Cl– channel H 2O cells lining lungs cystic fibrosis Cl– H 2O bacteria & mucus build up thickened mucus hard to secrete AP Biology mucus secreting glands delta F508 loss of one amino acid AP Biology Tay-Sachs (recessive) Primarily Jews of eastern European (Ashkenazi) descent & Cajuns (Louisiana) strikes 1 in 3600 births non-functional enzyme fails to breakdown lipids in brain cells AP Biology 100 times greater than incidence among non-Jews fats collect in cells destroying their function symptoms begin few months after birth seizures, blindness & degeneration of muscle & mental performance child usually dies before 5yo Sickle cell anemia (recessive) Primarily Africans strikes 1 out of 400 African Americans high frequency caused by substitution of a single amino acid in hemoglobin when oxygen levels are low, sickle-cell hemoglobin crystallizes into long rods AP Biology deforms red blood cells into sickle shape sickling creates pleiotropic effects = cascade of other symptoms Sickle cell anemia Substitution of one amino acid in polypeptide chain AP Biology hydrophilic amino acid hydrophobic amino acid AP Biology Sickle cell phenotype 2 alleles are codominant both normal & mutant hemoglobins are synthesized in heterozygote (Aa) 50% cells sickle; 50% cells normal carriers usually healthy sickle-cell disease triggered under blood oxygen stress AP Biology exercise Malaria AP Biology Prevalence of Malaria Prevalence of Sickle Cell Anemia AP Biology Heterozygote advantage Malaria single-celled eukaryote parasite spends part of its life cycle in red blood cells In tropical Africa, where malaria is common: homozygous dominant individuals die of malaria homozygous recessive individuals die of sickle cell anemia heterozygote carriers are relatively free of both reproductive advantage High frequency of sickle cell allele in African Americans is vestige of African roots AP Biology Heterozygote advantage Sickle cell frequency high frequency of heterozygotes is unusual for allele with severe detrimental effects in homozygotes 1 out of 400 African Americans Suggests some selective advantage of being heterozygous sickle cell: resistance to malaria? cystic fibrosis: resistance to cholera? AP Biology Huntington’s chorea (dominant) Dominant inheritance Testing… Would you want to know? repeated mutation on end of chromosome 4 mutation = CAG repeats glutamine amino acid repeats in protein one of 1st genes to be identified build up of “huntingtin” protein in brain causing cell death AP Biology 1872 memory loss muscle tremors, jerky movements “chorea” starts at age 30-50 early death 10-20 years after start Genetics & culture Why do all cultures have a taboo against incest? laws or cultural taboos forbidding marriages between close relatives are fairly universal Fairly unlikely that 2 unrelated carriers of same rare harmful recessive allele will meet & mate AP Biology but matings between close relatives increase risk “consanguineous” (same blood) matings individuals who share a recent common ancestor are more likely to carry same recessive alleles A hidden disease reveals itself Aa x Aa male / sperm male / sperm A A A a A AA AA A AA Aa a Aa Aa a Aa aa AP Biology female / eggs female / eggs AA x Aa • increase carriers in population • hidden disease is revealed Don’t hide… Ask Questions!! 2006-2007